The exponential scaling of Hilbert spaces presents a major computational bottleneck in simulating and controlling large scale multi qubit systems. This paper establishes the tensor product space not just as composite vector space, but fundamentally as a multi linear mapping that describes quantum operations across desperate subsystems. By modelling quantum gates and straight through this lense, we preserve the internal structural integrity of quantum operations while exponentially decreasing the computational overhead needed for simulation and control.
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P. S. Mehra, "On Tensor Product in Quantum Technology", Journal of Ultra Scientist of Physical Sciences, Volume 38, Issue 7, Page Number 82-84, 2026Copy the following to cite this URL:
P. S. Mehra, "On Tensor Product in Quantum Technology", Journal of Ultra Scientist of Physical Sciences, Volume 38, Issue 7, Page Number 82-84, 2026Available from: http://ultraphysicalsciences.org/paper/1558/
